DE4223034A1 - Sewn bag withstanding heavy loads over long periods - is made of e.g. polypropylene with all corners made by folding material round strip of isotropic structure and sewing together - Google Patents

Abstract

Sewn sacks have seams contg. at least one sealing strip and formed by folding over the edges and sewing the strip in, using a resilient strip of material with an isotropic structure. The strip, the sack material and the sewing threads are pref. all made of polypropylene. ADVANTAGE - The bags are made with simple equipment. Their seams have tight seals even when stressed for long periods and under heavy loads.

Description

The invention is based on a bag that is sewn by Fabric webs is made and in which by folding Edges formed at the edge regions of the fabric sheets are at least one sealing material strips inserted and with the fabric sheets is sewn.

U.S. Patents 4,307,764 and 4,822,179 are together Large bags that can be placed, so-called big bags, especially for bulk goods capable goods are described, which usually have a square cross have cut and the edges by forming hems are sewn together. The seams are sewn by means of a single stitch or double stitch. With these big bags is achieved that the hems from a certain minimum value are sufficiently dense so that fine, powdery filling material is not in the Area of the hems can emerge from the sack. This is in particular re important when the transport and storage loads are in shape of bumps, blows, falls etc. for the filled sacks exceed certain dimensions. It must also be prevented that contamination of the sack contents is caused by external influences  or that a dangerous sack content endangers the environment. this will achieved in that the outer material of the large bags with a sealing coating is provided or that the innermost layer usually consists of a film insert. In these cases meaningful the additional treatment of the large bags to achieve the hem laborious production with the corresponding Auf turned to material, costs and time.

In practice it has also been done that a textile Fabric tape attached to the seams or inserted into the seam fold sewed. However, this does not result in satisfactory tightness reached the hems because the seam created during sewing Widen the seam seam holes when the seam is loaded. So are the like bags especially not suitable for powdery filling. In addition, the use of textile fabric strips leads to Sealant at an increased cost for reusable Processing (recycling) of the no longer usable large bags.

The object of the invention is to improve a sack of the type mentioned above in that the sack with a resources at low cost for long-term and heavy use has a very high level of tightness when used in the hem area.

The solution to the problem is set out in claim 1.

In a preferred embodiment of the subject matter of the invention isotropic strips of material have a felt-like or fleece-like structure and is many times thicker than the fabric sheets for the manufacturers sack walls. The material strips preferably consist of the Fabric sheets and the sewing thread or threads from the same material al, e.g. B. made of polypropylene.  

This solution makes a simple and surprising way very high tightness of the seams of large sacks achieved, so that no product can escape from the inside of the bag, namely even with high mechanical stress on the filled sack, which Loads z. B. in particular by bumps, blows, falls, etc. can occur during transport. Due to the very high tightness the seams are also a contamination of the product in the sack avoided by external influences, while also ensuring is that dangerous sack contents cannot pollute the environment. Of further it is also avoided that moisture through the seam te can enter the inside of the bag so that the contents of the bag are not can be damaged by moisture. Furthermore, it is Achieving the tight hems of the sack very inexpensively and time-saving to achieve because the isotropic sealing strip is the same is inserted when sewing the bags, so that correspond Appropriate post-treatment of the sewn sack is not necessary. Beyond that the sack is over after it has become unusable for the purpose of disposal inexpensively by means of reprocessing Handling of the bag material (recycling) to handle.

The invention is based on one of the following Illustrated embodiment illustrated in more detail: Es demonstrate:

Fig. 1 is a bulk bag in perspective representation,

Fig. 2 is a sectional view taken along line II-II in Fig. 1,

FIGS. 3 and 4 are sectional views taken on the lines III-III and IV-IV in Fig. 2,

Fig. 5 is a sectional view taken along the lines VV in FIG. 1.

The known, collapsible large bag 1 according to FIG. 1 consists of the four side walls 2 , the bottom wall 3 and the top wall 4 with the collapsible and closable filler spout 5 . On the four corner areas of the large sack, the usual handles 6 are sewn together with outer reinforcement pieces 7 in order to be able to move the filled sack safely with appropriate devices. All side walls of the large bag consist of a fabric material, usually made of polypropylene, the material being cut from fabric sheets.

All fabric walls and all other essential flat tissue parts of the sack are folded over at the edge areas and connected to one another there by means of sewing threads in single or double seams. By folding the edge areas of the sack walls 2 , 3 and 4 and their wall parts when the walls, for. B. the walls 3 and 4 , composed of several parts, and the other pieces of tissue, for. B. the reinforcement pieces 7 , seams 8 arise, as shown in FIGS. 2 and 5, for example and schematically greatly enlarged.

Sealing strips of resilient material which have an isotropic structure are inserted in the seams 8 . As shown in Figures 2 to 5 , a simple strip of material is used. However, a double strip can also be used, depending on the intended use of the finished sack. The or the material strips 9 are z. B. made of plastic fibers, preferably polypropylene, and have a felt-like or fleece-like structure. The width of the material strips depends on whether a single or double hem seam is seen. The thickness of the material strips is many times thicker than that of the fabric webs chosen for the walls of the large sack; e.g. B. is the material strip thickness about 2 to 5, preferably 3 to 4 millimeters, the web thickness for the wall material of the large bag is about 0.5 millimeters. The isotropic material of the sealing strip 9 consists of closely intertwined, preferably hot-pressed fibers, is highly compressible when the strip is processed later, which in the present case is done by the sewing process, and has a certain spring reserve, which is advantageous has pointed out, as will be explained.

Fig. 2 shows on a greatly enlarged scale a first embodiment form of a hem according to the invention. The sack top wall 4 consists of the two wall parts 4 a and 4 b. In this case, only the wall part 4 a is folded over at its edge region to form a hem 8 , and in this a sealing felt strip 9 is embedded. All parts 4 a, 4 b and 9 are connected to one another by means of two parallel seams 10 and 11 . The thread-like suture material is preferably also made of polypropylene.

FIGS. 3 and 4 show enlarged also strong, a very simplified longitudinal section through the illustrated suture 10, wherein Figure 3 is a substantially unloaded seam and Fig. 4 shows. A loaded seam. It can be seen that the seam, for example, consists of two threads, namely an upper thread 10 a and a lower thread 10 b. The upper thread 10 a runs through the sewing hole 12 and wraps around the lower thread 10 b in a known manner. Of course, the seam 10 can also consist of a single thread in known sewing technology. For a better understanding of the invention, the sections 10 c of the upper thread 10 a running through the hole 12 are drawn at a distance from one another; in practice, they essentially lie against each other after the sewing process.

In Fig. 4 it can be seen that the loaded seam 10 causes a reduction in the cross section of the sewing hole 12 , which is due to the effect of the flexible material strip 9 , which due to its certain spring reserve in connection with its thickness, penetration of strip material in its central region into the Hole inside worried if the two edge areas of the strip 9 at the edge of the hole pressed together by the sewing thread or threads. As a result, as studies have shown, the inner thread sections 10 c are surprisingly pressed towards the center of the hole, as a result of which the sewing hole 10 is actively closed when the seam is under load. Seams 10 , 11 produced in this way thus lead to the result that the large sack is absolutely tight in the seam areas, in particular under high loads during transport and handling due to falls, bumps, etc. This surprising sealing result is attributed to the isotropic material of the sealing strip 9 , which therefore does not cause an enlargement of the hole when the bag is loaded and thus the seam, as is the case with a tissue material as a sealing strip. The isotropic and nachgiebi ge material of the strip 9 exerts a mechanical damping on the suture material at the seam loading, so that thereby a risk of destruction of the bag fabric at the seams at least gemin changed, if not excluded.

In Fig. 5, a second embodiment of a seam 8 is shown greatly enlarged. The essential difference of this hem to the hem 8 according to FIG. 2 is that in this case the edge regions of the two sack walls 2 are folded into a hem and the sealing, isotropic material strips 9 are between them. With the seams 10 and 11 , the strip 9 is sewn to the hem of the sack walls 2 as described in connection with FIGS . 3 and 4 be. In this case too, the sealing action when the bag is loaded is as described in connection with FIGS. 2, 3 and 4.

FIGS. 2 and 5 each show a hem which has two seams 10 and 11 . If the relevant bag 1 is provided for lower loads, it may also be sufficient to provide only one seam.

The fabric material for the sack walls 2 , 3 and 4 , the sealing strip 9 in the hems 8 and the thread or threads for the seam seams 10 and 11 are preferably made of the same material, preferably polypropylene.

In an advantageous development of the invention, the or each sewing thread for the hems 8 can be impregnated with oil. Since the Nähfä the self consist generally of a plurality of fibers, causing the impregnation of the filaments with oil, that in the region of each Nähloches exits 12 a certain amount of oil out of the thread and in the area of the hole 12 a sticky environment and thus a causes additional blockage of the sewing hole, so that there is an increased obstacle effect when powdery contents or other fine media pass through the sewing hole. In order to avoid contamination of the bag contents, it is advisable to sew only the outer seam or the outer seams with oil-containing sewing threads in the case of several seams for the hems, so that the innermost seam is sewn with an oil-free sewing thread and oil is not can enter the inside of the bag. If an oil-containing sewing thread cannot endanger the contents of the sack, then the only or innermost seam can also consist of oil-containing seam material.

Claims (7)

1. By sewing fabric sheets sack, in the seams formed by folding edge areas of the fabric sheets, at least one sealing material strip is inserted and sewn to the fabric sheets, characterized in that the resilient material strip ( 9 ) has an isotropic structure. 2. Sack according to claim 1, characterized in that the material strip ( 9 ) made of plastic fibers has a felt-like or fleece-like structure. 3. Sack according to claim 1 or 2, characterized in that the material strip ( 9 ) is many times thicker than the woven webs NEN ( 2 , 3 , 4 ). 4. Sack according to one of claims 1 to 3, characterized in that the material strip ( 9 ), the fabric webs ( 2 , 3 , 4 ) and the sewing thread ( 10 , 11 ) consist of the same material. 5. Sack according to claim 4, characterized in that the material strips ( 9 ), the fabric webs ( 2 , 3 , 4 ) and the sewing thread ( 10 , 11 ) consist of polypropylene. 6. Sack according to one of claims 1 to 5, in which the hems are sewn with at least one seam, characterized in that the thread or threads of the seam ( 10 , 11 ) are soaked with oil. 7. Sack according to claim 6, in which the hems are sewn with two parallel seams, characterized in that the thread or threads used for the external seam ( 11 ) are impregnated with oil.